ORF » Species Summary » Maylandia zebra » usp28 cDNA ORF clone

usp28 cDNA ORF clone, Maylandia zebra(zebra mbuna)

The following usp28 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the usp28 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OMa06379 XM_004573473.4
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMa313080 XM_023153118.1
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMa313081 XM_023153119.1
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMa359731 XM_004573473.5
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMa359732 XM_023153118.2
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMa359733 XM_023153119.2
Latest version!		 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
View Old Accession Versions >>
OMa06379 XM_004573473.3 Maylandia zebra ubiquitin specific peptidase 28 (usp28), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    usp28 ( XM_004573473.3 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004573530.1 Maylandia zebra ubiquitin specific peptidase 28 (usp28), mRNA.
    Price & Availability↑
    CloneID OMa06379
    Clone ID Related Accession (Same CDS sequence) XM_004573473.3 , XM_004573473.4
    Accession Version XM_004573473.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-10-15
    Organism Maylandia zebra(Zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444930.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 16, 2015 this sequence version replaced XM_004573473.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Maylandia zebra Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGC AGGAGGTTCC AGCCAGACCA CGACAGACTG AGAATGAGGT CTCAGAAGTG 
    GAGATCCCCA ATGTGGGCCG GATCATGGTG AGGGCGGATG CTGACGGATA CAATGAAGAG 
    ATGATGCTAA CTCCAGCTAT GCAGGGTGTC ATTCTAGCCA TAGCCAAGGC CAGACAAATT 
    TTTGATAAGG AGGGTCCTGA GGCTGGCCTC ATCAAGGCTT TCCATGAAGA GTATTCGCGC 
    TTGTATGAGC TCTCTGAAGA GGAGACCACA CCACAGGAGG ATGCACGTCT CCAGCACGCT 
    CTGGTCTACT TCTTCCAGAA CAAGGCACCC AAGCGTGTCA TTGAGAGGAC GCTGCTTGAG 
    CAGTTTACTG ACCGCAACCT CAGTTTTGAT GAGAGAGCCA TCAGTATCAT GAGGGAAGCC 
    CGGGCCAAAC TTCGTCTCAT TAAGCCAGAA GACATGGACA TGGAAGAATA CATGCAGTGG 
    CATGACGATT ACAGGCTGTT CAGGACGGTC TTTGTCTATC TGTTGACTGG GCTGGAGCAT 
    TACCAGCACG GGAAGATGCG TGATGCACTG AATTACTTGG CCCACGCCTA TGAGACCAAC 
    AGCACCCTGC TGCGAAACGG AGAGAAACGT GGTGTGGACA AGTCTCTCAT TGCTGTTTAC 
    AGGAGGAAGT GTCTCACTGC ACTAAATGAG AGCGCATCGC AGCTATTTTG CAGCGGTGAG 
    GAGGCCAAAG TAGAAGAGGG TATTGCCATC ATGGATGAAG CCGTCATCCC CTGCCTTCAC 
    CTGATGAACC GGGACTCGAC TTTACCCCAG GAAGACCGAG ATGCAATGGA GGCCATCCGC 
    AGCCACTGGT GCTGCTGCCT GGGCCGAGAC ATGGATCAGT CATTGCAGGT GAAGCTCGGC 
    GAGTTGCTTC CCAGAGTTCT GGACGGTTCA GCTGACACAG TAGTGCTTAA AGACCCACCC 
    AAAGTCCACG TCACCCAGGC CTACGACCTG TGCAGTCGCC TGGCTGCTGT TATGGAATCC 
    ATCCACAACA CATCAGTGGT CATTGTGAAG TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_004573530.1
    CDS107..3739
    Translation

    Target ORF information:

    RefSeq Version XM_004573473.3
    Organism Maylandia zebra(Zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004573473.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGC AGGAGGTTCC AGCCAGACCA CGACAGACTG AGAATGAGGT CTCAGAAGTG 
    GAGATCCCCA ATGTGGGCCG GATCATGGTG AGGGCGGATG CTGACGGATA CAATGAAGAG 
    ATGATGCTAA CTCCAGCTAT GCAGGGTGTC ATTCTAGCCA TAGCCAAGGC CAGACAAATT 
    TTTGATAAGG AGGGTCCTGA GGCTGGCCTC ATCAAGGCTT TCCATGAAGA GTATTCGCGC 
    TTGTATGAGC TCTCTGAAGA GGAGACCACA CCACAGGAGG ATGCACGTCT CCAGCACGCT 
    CTGGTCTACT TCTTCCAGAA CAAGGCACCC AAGCGTGTCA TTGAGAGGAC GCTGCTTGAG 
    CAGTTTACTG ACCGCAACCT CAGTTTTGAT GAGAGAGCCA TCAGTATCAT GAGGGAAGCC 
    CGGGCCAAAC TTCGTCTCAT TAAGCCAGAA GACATGGACA TGGAAGAATA CATGCAGTGG 
    CATGACGATT ACAGGCTGTT CAGGACGGTC TTTGTCTATC TGTTGACTGG GCTGGAGCAT 
    TACCAGCACG GGAAGATGCG TGATGCACTG AATTACTTGG CCCACGCCTA TGAGACCAAC 
    AGCACCCTGC TGCGAAACGG AGAGAAACGT GGTGTGGACA AGTCTCTCAT TGCTGTTTAC 
    AGGAGGAAGT GTCTCACTGC ACTAAATGAG AGCGCATCGC AGCTATTTTG CAGCGGTGAG 
    GAGGCCAAAG TAGAAGAGGG TATTGCCATC ATGGATGAAG CCGTCATCCC CTGCCTTCAC 
    CTGATGAACC GGGACTCGAC TTTACCCCAG GAAGACCGAG ATGCAATGGA GGCCATCCGC 
    AGCCACTGGT GCTGCTGCCT GGGCCGAGAC ATGGATCAGT CATTGCAGGT GAAGCTCGGC 
    GAGTTGCTTC CCAGAGTTCT GGACGGTTCA GCTGACACAG TAGTGCTTAA AGACCCACCC 
    AAAGTCCACG TCACCCAGGC CTACGACCTG TGCAGTCGCC TGGCTGCTGT TATGGAATCC 
    ATCCACAACA CATCAGTGGT CATTGTGAAG TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_004573473.4 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004573530.1 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMa06379
    Clone ID Related Accession (Same CDS sequence) XM_004573473.3 , XM_004573473.4
    Accession Version XM_004573473.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-11-29
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444930.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 30, 2017 this sequence version replaced XM_004573473.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGC AGGAGGTTCC AGCCAGACCA CGACAGACTG AGAATGAGGT CTCAGAAGTG 
    GAGATCCCCA ATGTGGGCCG GATCATGGTG AGGGCGGATG CTGACGGATA CAATGAAGAG 
    ATGATGCTAA CTCCAGCTAT GCAGGGTGTC ATTCTAGCCA TAGCCAAGGC CAGACAAATT 
    TTTGATAAGG AGGGTCCTGA GGCTGGCCTC ATCAAGGCTT TCCATGAAGA GTATTCGCGC 
    TTGTATGAGC TCTCTGAAGA GGAGACCACA CCACAGGAGG ATGCACGTCT CCAGCACGCT 
    CTGGTCTACT TCTTCCAGAA CAAGGCACCC AAGCGTGTCA TTGAGAGGAC GCTGCTTGAG 
    CAGTTTACTG ACCGCAACCT CAGTTTTGAT GAGAGAGCCA TCAGTATCAT GAGGGAAGCC 
    CGGGCCAAAC TTCGTCTCAT TAAGCCAGAA GACATGGACA TGGAAGAATA CATGCAGTGG 
    CATGACGATT ACAGGCTGTT CAGGACGGTC TTTGTCTATC TGTTGACTGG GCTGGAGCAT 
    TACCAGCACG GGAAGATGCG TGATGCACTG AATTACTTGG CCCACGCCTA TGAGACCAAC 
    AGCACCCTGC TGCGAAACGG AGAGAAACGT GGTGTGGACA AGTCTCTCAT TGCTGTTTAC 
    AGGAGGAAGT GTCTCACTGC ACTAAATGAG AGCGCATCGC AGCTATTTTG CAGCGGTGAG 
    GAGGCCAAAG TAGAAGAGGG TATTGCCATC ATGGATGAAG CCGTCATCCC CTGCCTTCAC 
    CTGATGAACC GGGACTCGAC TTTACCCCAG GAAGACCGAG ATGCAATGGA GGCCATCCGC 
    AGCCACTGGT GCTGCTGCCT GGGCCGAGAC ATGGATCAGT CATTGCAGGT GAAGCTCGGC 
    GAGTTGCTTC CCAGAGTTCT GGACGGTTCA GCTGACACAG TAGTGCTTAA AGACCCACCC 
    AAAGTCCACG TCACCCAGGC CTACGACCTG TGCAGTCGCC TGGCTGCTGT TATGGAATCC 
    ATCCACAACA CATCAGTGGT CATTGTGAAG TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_004573530.1
    CDS89..3721
    Translation

    Target ORF information:

    RefSeq Version XM_004573473.4
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004573473.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGC AGGAGGTTCC AGCCAGACCA CGACAGACTG AGAATGAGGT CTCAGAAGTG 
    GAGATCCCCA ATGTGGGCCG GATCATGGTG AGGGCGGATG CTGACGGATA CAATGAAGAG 
    ATGATGCTAA CTCCAGCTAT GCAGGGTGTC ATTCTAGCCA TAGCCAAGGC CAGACAAATT 
    TTTGATAAGG AGGGTCCTGA GGCTGGCCTC ATCAAGGCTT TCCATGAAGA GTATTCGCGC 
    TTGTATGAGC TCTCTGAAGA GGAGACCACA CCACAGGAGG ATGCACGTCT CCAGCACGCT 
    CTGGTCTACT TCTTCCAGAA CAAGGCACCC AAGCGTGTCA TTGAGAGGAC GCTGCTTGAG 
    CAGTTTACTG ACCGCAACCT CAGTTTTGAT GAGAGAGCCA TCAGTATCAT GAGGGAAGCC 
    CGGGCCAAAC TTCGTCTCAT TAAGCCAGAA GACATGGACA TGGAAGAATA CATGCAGTGG 
    CATGACGATT ACAGGCTGTT CAGGACGGTC TTTGTCTATC TGTTGACTGG GCTGGAGCAT 
    TACCAGCACG GGAAGATGCG TGATGCACTG AATTACTTGG CCCACGCCTA TGAGACCAAC 
    AGCACCCTGC TGCGAAACGG AGAGAAACGT GGTGTGGACA AGTCTCTCAT TGCTGTTTAC 
    AGGAGGAAGT GTCTCACTGC ACTAAATGAG AGCGCATCGC AGCTATTTTG CAGCGGTGAG 
    GAGGCCAAAG TAGAAGAGGG TATTGCCATC ATGGATGAAG CCGTCATCCC CTGCCTTCAC 
    CTGATGAACC GGGACTCGAC TTTACCCCAG GAAGACCGAG ATGCAATGGA GGCCATCCGC 
    AGCCACTGGT GCTGCTGCCT GGGCCGAGAC ATGGATCAGT CATTGCAGGT GAAGCTCGGC 
    GAGTTGCTTC CCAGAGTTCT GGACGGTTCA GCTGACACAG TAGTGCTTAA AGACCCACCC 
    AAAGTCCACG TCACCCAGGC CTACGACCTG TGCAGTCGCC TGGCTGCTGT TATGGAATCC 
    ATCCACAACA CATCAGTGGT CATTGTGAAG TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_023153118.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_023008886.1 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMa313080
    Clone ID Related Accession (Same CDS sequence) XM_023153118.1
    Accession Version XM_023153118.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-11-29
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444930.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    AGTGAAATGC TGATCAGCCA GCTGAGGGAG ATCACTGGCA TCCAGGACCA ACAGATCCTC 
    TACAGAGCCC TGAATGTCAG TCAGGGGGAC ATTGGACATG CTGTTGGACT GCTGACAACC 
    CAGACTGCAG AGGTTCAGGA CCCTGGAGAA CCACAGGAGT CAGGGACATC TGGAGAGGCC 
    TGGGAGGGCC AGAAAGGGCT TCCTAAAGAT GAACTGCAGA CCGCTATAGA ACTCAGCCTG 
    CAGGAGTCCC ACAAAGCCCA GGAAGAGGAG CGAGAATTTC ATAGGGCTCT GGAAGCCAGT 
    GCAGAGGAGA ATGCTGCGAG AATAAAGAGG AAGAGATGTG AAGCCCAGAG TGAAATGTGT 
    AGCCCTGCAG AGTGGATCCG TCAGGAAGAT TGGCCTGTGG GCATTCGTAA TGTAGGAAAC 
    ACCTGCTGGT TCAGTGCTGT CATCCAGTCA CTCTTCCACC TGCCTGTGTT CAGGAGACTG 
    GTTCTCAACT ACCATCTGTC TGAGAAAATA CTGGAGAAGT GTAAAAGCCA TTCAGACAAG 
    AGGAACATAG CCTTCATGCA GGAGCTGCGC TGCCTGTTTG CCCTCATGGT GGGCTCTACC 
    CGCAGGTTTG TGGATCCTTC TGCTGCTGTG GAGTTATTGC GTGACGCCTT CAGGACCAAT 
    GAGGCCCAAC AGGATGTCAG TGAGTTTTCC CACAAACTGC TTGACTGGCT CGAGGATGCA 
    TTTCAGCTGG CTGCCAGTGG AAAAAATGCA GAAGATAAAC AACATAACCC CATGGTCCAG 
    CTCTTCTATG GTACCTTTGT GACAGAAAGA AGACACGAGG GTAAGATGGT ATATAATATT 
    GAGCAGTTTG GCCAGTACCC CCTGCAAGTC AATGGCTTCA ACAATCTTGA TGAATGCTTA 
    GAAGGTGCTA TGGTAGAGAA GGAGATTGAG TCGGTTCATT CAGAGCATCA TGTCACATCT 
    GGACGTGAGA GATGGTTCAA AAAGCTACCA CCAGTCTTGA CATTTGAACT TTCGAGATTT 
    GAATTCAACA CCCAGCTTGG GCGCCCTGAG AAGATACATA AGAAACTGGA GTTTCCTCAA 
    ATCATTTATA TGGACAGATA TCTTCACAAA AACATTGAGC AGACCCATGA GAGGAGAGGA 
    GAAGTAAAGA AACTAAAGGA GCAACTGGCA GTCCTTCAAC AGAAACTTGA GTGTTATAAA 
    AACTATGGCT CTGGACCTAC AAAGTACCCT CTAGCTGACA TGCTCCAGTT TGTGCTGGAG 
    TTTGCTACCA CCAAGCCGAC TAGCGTTTCC CCAGCTGAAG ACTCGAGACA GGCCGCATCG 
    TCACCGACTC CTCCAAGTGC CCCCCTCAGT GAAGCCATTG CCAAAGAAAG CAGTGATCCC 
    GGAGAATCAG TTTCATCAGA GAGCCTGGGT TCCAGTGTTT CCAGTTGCCA GAGGACCCCC 
    ATATACAAGC CCTTCACTCA GTGCAGACAA CCTATTGACT GCCCACCACA CCCTGCCCCC 
    CACAGCATCA CAGAAGAAGA GCTGCACTTT GCTAAAACCT GTCTTCAGCG TTGGAGGACT 
    GAAGTTGAGA ATGACATAAA TGAACTAAAG GCCAGCATTG ACAGGCTCAC TCAGACGCTC 
    GAGGGCATGT ACTCAGACAA CAGTCTCTGC CAGGCCCCCT ACAGACTCCA TGCAGTGCTT 
    GTCCATGAAG GCCAGGCATC AGCTGGTCAT TACTGGGCTT ACATCTATGA CCATGCTAAC 
    CAGCGCTGGC TGAAGTACAA TGACATAAGT GTCACTGAGT CATCGTGGGA TGAGCTGGAG 
    CGAGACTCCT TTGGAGGCAT GACCAACGCA AGTGCCTACT GCCTAATGTA CATTGACGAC 
    AGGCTACCTC AGCTCATCAC AGAAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCACCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_023008886.1
    CDS89..3718
    Translation

    Target ORF information:

    RefSeq Version XM_023153118.1
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_023153118.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    AGTGAAATGC TGATCAGCCA GCTGAGGGAG ATCACTGGCA TCCAGGACCA ACAGATCCTC 
    TACAGAGCCC TGAATGTCAG TCAGGGGGAC ATTGGACATG CTGTTGGACT GCTGACAACC 
    CAGACTGCAG AGGTTCAGGA CCCTGGAGAA CCACAGGAGT CAGGGACATC TGGAGAGGCC 
    TGGGAGGGCC AGAAAGGGCT TCCTAAAGAT GAACTGCAGA CCGCTATAGA ACTCAGCCTG 
    CAGGAGTCCC ACAAAGCCCA GGAAGAGGAG CGAGAATTTC ATAGGGCTCT GGAAGCCAGT 
    GCAGAGGAGA ATGCTGCGAG AATAAAGAGG AAGAGATGTG AAGCCCAGAG TGAAATGTGT 
    AGCCCTGCAG AGTGGATCCG TCAGGAAGAT TGGCCTGTGG GCATTCGTAA TGTAGGAAAC 
    ACCTGCTGGT TCAGTGCTGT CATCCAGTCA CTCTTCCACC TGCCTGTGTT CAGGAGACTG 
    GTTCTCAACT ACCATCTGTC TGAGAAAATA CTGGAGAAGT GTAAAAGCCA TTCAGACAAG 
    AGGAACATAG CCTTCATGCA GGAGCTGCGC TGCCTGTTTG CCCTCATGGT GGGCTCTACC 
    CGCAGGTTTG TGGATCCTTC TGCTGCTGTG GAGTTATTGC GTGACGCCTT CAGGACCAAT 
    GAGGCCCAAC AGGATGTCAG TGAGTTTTCC CACAAACTGC TTGACTGGCT CGAGGATGCA 
    TTTCAGCTGG CTGCCAGTGG AAAAAATGCA GAAGATAAAC AACATAACCC CATGGTCCAG 
    CTCTTCTATG GTACCTTTGT GACAGAAAGA AGACACGAGG GTAAGATGGT ATATAATATT 
    GAGCAGTTTG GCCAGTACCC CCTGCAAGTC AATGGCTTCA ACAATCTTGA TGAATGCTTA 
    GAAGGTGCTA TGGTAGAGAA GGAGATTGAG TCGGTTCATT CAGAGCATCA TGTCACATCT 
    GGACGTGAGA GATGGTTCAA AAAGCTACCA CCAGTCTTGA CATTTGAACT TTCGAGATTT 
    GAATTCAACA CCCAGCTTGG GCGCCCTGAG AAGATACATA AGAAACTGGA GTTTCCTCAA 
    ATCATTTATA TGGACAGATA TCTTCACAAA AACATTGAGC AGACCCATGA GAGGAGAGGA 
    GAAGTAAAGA AACTAAAGGA GCAACTGGCA GTCCTTCAAC AGAAACTTGA GTGTTATAAA 
    AACTATGGCT CTGGACCTAC AAAGTACCCT CTAGCTGACA TGCTCCAGTT TGTGCTGGAG 
    TTTGCTACCA CCAAGCCGAC TAGCGTTTCC CCAGCTGAAG ACTCGAGACA GGCCGCATCG 
    TCACCGACTC CTCCAAGTGC CCCCCTCAGT GAAGCCATTG CCAAAGAAAG CAGTGATCCC 
    GGAGAATCAG TTTCATCAGA GAGCCTGGGT TCCAGTGTTT CCAGTTGCCA GAGGACCCCC 
    ATATACAAGC CCTTCACTCA GTGCAGACAA CCTATTGACT GCCCACCACA CCCTGCCCCC 
    CACAGCATCA CAGAAGAAGA GCTGCACTTT GCTAAAACCT GTCTTCAGCG TTGGAGGACT 
    GAAGTTGAGA ATGACATAAA TGAACTAAAG GCCAGCATTG ACAGGCTCAC TCAGACGCTC 
    GAGGGCATGT ACTCAGACAA CAGTCTCTGC CAGGCCCCCT ACAGACTCCA TGCAGTGCTT 
    GTCCATGAAG GCCAGGCATC AGCTGGTCAT TACTGGGCTT ACATCTATGA CCATGCTAAC 
    CAGCGCTGGC TGAAGTACAA TGACATAAGT GTCACTGAGT CATCGTGGGA TGAGCTGGAG 
    CGAGACTCCT TTGGAGGCAT GACCAACGCA AGTGCCTACT GCCTAATGTA CATTGACGAC 
    AGGCTACCTC AGCTCATCAC AGAAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCACCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_023153119.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_023008887.1 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMa313081
    Clone ID Related Accession (Same CDS sequence) XM_023153119.1
    Accession Version XM_023153119.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-11-29
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444930.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCACCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_023008887.1
    CDS89..3718
    Translation

    Target ORF information:

    RefSeq Version XM_023153119.1
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_023153119.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGAGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCACCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_004573473.5 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004573530.2 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMa359731
    Clone ID Related Accession (Same CDS sequence) XM_004573473.5
    Accession Version XM_004573473.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-04-23
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036789.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_004573473.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGGGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCTCCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_004573530.2
    CDS89..3718
    Translation

    Target ORF information:

    RefSeq Version XM_004573473.5
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004573473.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGGGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGAAGAC ACAGATGATG AGACGGGCCA GGTGCTCCAT 
    GGCATGGACT CTCTGCCACC CATCCTCAGG CGCTTTGTCC ACGAAGATAA CCGCTGGTTC 
    CAGCAGGAGC TCAGCGAATG GGAGGAGCAG TTCTGCCAGA CAGCAACCCC GCAGGAAGAG 
    TCCACCGCCT CTGCAGAGCC CACAAGTCCC AGTCTGGATA ACATACAGCA GTCACCTGTT 
    GAGCCAGCAC CCCAGTCAGG ATCCACTACT GAAGAGGTGG ATGAAGGAGT TGCTCCAGAG 
    CCACAGCCAG ACCAAGAAGC AGAGAAAGAG CCAGAACCTG ATCTCAGAAA AGAGCCAGAA 
    GCGCAAACAG ATTTATCTCC CCCACCACCA GAGGGCCCTG GCTGCCAGCC AGGTGATACC 
    AGCACTCCAA CAGTCACTGA CACCACGGGG GTCAGCCAGA GCTCTGATTC AGAGGAGAAG 
    GAGCCGCAGA ATCAGATCCC TGGCCCTGAT GTAGAGCTTT GCGATCAGAC ACCATCTGAC 
    ATCCACGTAG AGAAGGATAA CCCAGAGGTG GCCGGCCTCG TCTCTGAAAC TGAAGAAGAG 
    CCCCAGGCTT CTGGAGAGGC TCCTGAACCT ATCGCAGAGC AAAGCAATCA GGAGCAGCAG 
    CAGCAGCAGG AGGTTCCAGC CAGACCACGA CAGACTGAGA ATGAGGTCTC AGAAGTGGAG 
    ATCCCCAATG TGGGCCGGAT CATGGTGAGG GCGGATGCTG ACGGATACAA TGAAGAGATG 
    ATGCTAACTC CAGCTATGCA GGGTGTCATT CTAGCCATAG CCAAGGCCAG ACAAATTTTT 
    GATAAGGAGG GTCCTGAGGC TGGCCTCATC AAGGCTTTCC ATGAAGAGTA TTCGCGCTTG 
    TATGAGCTCT CTGAAGAGGA GACCACACCA CAGGAGGATG CACGTCTCCA GCACGCTCTG 
    GTCTACTTCT TCCAGAACAA GGCACCCAAG CGTGTCATTG AGAGGACGCT GCTTGAGCAG 
    TTTACTGACC GCAACCTCAG TTTTGATGAG AGAGCCATCA GTATCATGAG GGAAGCCCGG 
    GCCAAACTTC GTCTCATTAA GCCAGAAGAC ATGGACATGG AAGAATACAT GCAGTGGCAT 
    GACGATTACA GGCTGTTCAG GACGGTCTTT GTCTATCTGT TGACTGGGCT GGAGCATTAC 
    CAGCACGGGA AGATGCGTGA TGCACTGAAT TACTTGGCCC ACGCCTATGA GACCAACAGC 
    ACCCTGCTGC GAAACGGAGA GAAACGTGGT GTGGACAAGT CTCTCATTGC TGTTTACAGG 
    AGGAAGTGTC TCACTGCACT AAATGAGAGC GCATCGCAGC TATTTTGCAG CGGTGAGGAG 
    GCCAAAGTAG AAGAGGGTAT TGCCATCATG GATGAAGCCG TCATCCCCTG CCTTCACCTG 
    ATGAACCGGG ACTCGACTTT ACCCCAGGAA GACCGAGATG CAATGGAGGC CATCCGCAGC 
    CACTGGTGCT GCTGCCTGGG CCGAGACATG GATCAGTCAT TGCAGGTGAA GCTCGGCGAG 
    TTGCTTCCCA GAGTTCTGGA CGGTTCAGCT GACACAGTAG TGCTTAAAGA CCCTCCCAAA 
    GTCCACGTCA CCCAGGCCTA CGACCTGTGC AGTCGCCTGG CTGCTGTTAT GGAATCCATC 
    CACAACACAT CAGTGGTCAT TGTGAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_023153118.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_023008886.2 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMa359732
    Clone ID Related Accession (Same CDS sequence) XM_023153118.2
    Accession Version XM_023153118.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3627bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-04-23
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036789.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_023153118.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    AGTGAAATGC TGATCAGCCA GCTGAGGGAG ATCACTGGCA TCCAGGACCA ACAGATCCTC 
    TACAGAGCCC TGAATGTCAG TCAGGGGGAC ATTGGACATG CTGTTGGACT GCTGACAACC 
    CAGACTGCAG AGGTTCAGGA CCCTGGAGAA CCACAGGAGT CAGGGACATC TGGAGAGGCC 
    TGGGAGGGCC AGAAAGGGCT TCCTAAAGAT GAACTGCAGA CCGCTATAGA ACTCAGCCTG 
    CAGGAGTCCC ACAAAGCCCA GGAAGAGGAG CGAGAATTTC ATAGGGCTCT GGAAGCCAGT 
    GCAGAGGAGA ATGCTGCGAG AATAAAGAGG AAGAGATGTG AAGCCCAGAG TGAAATGTGT 
    AGCCCTGCAG AGTGGATCCG TCAGGAAGAT TGGCCTGTGG GCATTCGTAA TGTAGGAAAC 
    ACCTGCTGGT TCAGTGCTGT CATCCAGTCA CTCTTCCACC TGCCTGTGTT CAGGAGACTG 
    GTTCTCAACT ACCATCTGTC TGAGAAAATA CTGGAGAAGT GTAAAAGCCA TTCAGACAAG 
    AGGAACATAG CCTTCATGCA GGAGCTGCGC TGCCTGTTTG CCCTCATGGT GGGCTCTACC 
    CGCAGGTTTG TGGATCCTTC TGCTGCTGTG GAGTTATTGC GTGACGCCTT CAGGACCAAT 
    GAGGCCCAAC AGGATGTCAG TGAGTTTTCC CACAAACTGC TTGACTGGCT CGAGGATGCA 
    TTTCAGCTGG CTGCCAGTGG AAAAAATGCA GAAGATAAAC AACATAACCC CATGGTCCAG 
    CTCTTCTATG GTACCTTTGT GACAGAAAGA AGACACGAGG GTAAGATGGT ATATAATATT 
    GAGCAGTTTG GCCAGTACCC CCTGCAAGTC AATGGCTTCA ACAATCTTGA TGAATGCTTA 
    GAAGGTGCTA TGGTAGAGAA GGAGATTGAG TCGGTTCATT CAGAGCATCA TGTCACATCT 
    GGACGTGAGA GATGGTTCAA AAAGCTACCA CCAGTCTTGA CATTTGAACT TTCGAGATTT 
    GAATTCAACA CCCAGCTTGG GCGCCCTGAG AAGATACATA AGAAACTGGA GTTTCCTCAA 
    ATCATTTATA TGGACAGATA TCTTCACAAA AACATTGAGC AGACCCATGA GAGGAGAGGA 
    GAAGTAAAGA AACTAAAGGA GCAACTGGCA GTCCTTCAAC AGAAACTTGA GTGTTATAAA 
    AACTATGGCT CTGGACCTAC AAAGTACCCT CTAGCTGACA TGCTCCAGTT TGTGCTGGAG 
    TTTGCTACCA CCAAGCCGAC TAGCGTTTCC CCAGCTGAAG ACTCGAGACA GGCCGCATCG 
    TCACCGACTC CTCCAAGTGC CCCCCTCAGT GAAGCCATTG CCAAAGAAAG CAGTGATCCC 
    GGAGAATCAG TTTCATCAGA GAGCCTGGGT TCCAGTGTTT CCAGTTGCCA GAGGACCCCC 
    ATATACAAGC CCTTCACTCA GTGCAGACAA CCTATTGACT GCCCACCACA CCCTGCCCCC 
    CACAGCATCA CAGAAGAAGA GCTGCACTTT GCTAAAACCT GTCTTCAGCG TTGGAGGACT 
    GAAGTTGAGA ATGACATAAA TGAACTAAAG GCCAGCATTG ACAGGCTCAC TCAGACGCTC 
    GAGGGCATGT ACTCAGACAA CAGTCTCTGC CAGGCCCCCT ACAGACTCCA TGCAGTGCTT 
    GTCCATGAAG GCCAGGCATC AGCTGGTCAT TACTGGGCTT ACATCTATGA CCATGCTAAC 
    CAGCGCTGGC TGAAGTACAA TGACATAAGT GTCACTGAGT CATCGTGGGA TGAGCTGGAG 
    CGGGACTCCT TTGGAGGCAT GACCAACGCA AGTGCCTACT GCCTAATGTA CATTGACGAC 
    AGGCTACCTC AGCTCATCAC AGAAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGGAGG TTCCAGCCAG ACCACGACAG ACTGAGAATG AGGTCTCAGA AGTGGAGATC 
    CCCAATGTGG GCCGGATCAT GGTGAGGGCG GATGCTGACG GATACAATGA AGAGATGATG 
    CTAACTCCAG CTATGCAGGG TGTCATTCTA GCCATAGCCA AGGCCAGACA AATTTTTGAT 
    AAGGAGGGTC CTGAGGCTGG CCTCATCAAG GCTTTCCATG AAGAGTATTC GCGCTTGTAT 
    GAGCTCTCTG AAGAGGAGAC CACACCACAG GAGGATGCAC GTCTCCAGCA CGCTCTGGTC 
    TACTTCTTCC AGAACAAGGC ACCCAAGCGT GTCATTGAGA GGACGCTGCT TGAGCAGTTT 
    ACTGACCGCA ACCTCAGTTT TGATGAGAGA GCCATCAGTA TCATGAGGGA AGCCCGGGCC 
    AAACTTCGTC TCATTAAGCC AGAAGACATG GACATGGAAG AATACATGCA GTGGCATGAC 
    GATTACAGGC TGTTCAGGAC GGTCTTTGTC TATCTGTTGA CTGGGCTGGA GCATTACCAG 
    CACGGGAAGA TGCGTGATGC ACTGAATTAC TTGGCCCACG CCTATGAGAC CAACAGCACC 
    CTGCTGCGAA ACGGAGAGAA ACGTGGTGTG GACAAGTCTC TCATTGCTGT TTACAGGAGG 
    AAGTGTCTCA CTGCACTAAA TGAGAGCGCA TCGCAGCTAT TTTGCAGCGG TGAGGAGGCC 
    AAAGTAGAAG AGGGTATTGC CATCATGGAT GAAGCCGTCA TCCCCTGCCT TCACCTGATG 
    AACCGGGACT CGACTTTACC CCAGGAAGAC CGAGATGCAA TGGAGGCCAT CCGCAGCCAC 
    TGGTGCTGCT GCCTGGGCCG AGACATGGAT CAGTCATTGC AGGTGAAGCT CGGCGAGTTG 
    CTTCCCAGAG TTCTGGACGG TTCAGCTGAC ACAGTAGTGC TTAAAGACCC TCCCAAAGTC 
    CACGTCACCC AGGCCTACGA CCTGTGCAGT CGCCTGGCTG CTGTTATGGA ATCCATCCAC 
    AACACATCAG TGGTCATTGT GAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_023008886.2
    CDS89..3715
    Translation

    Target ORF information:

    RefSeq Version XM_023153118.2
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_023153118.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    AGTGAAATGC TGATCAGCCA GCTGAGGGAG ATCACTGGCA TCCAGGACCA ACAGATCCTC 
    TACAGAGCCC TGAATGTCAG TCAGGGGGAC ATTGGACATG CTGTTGGACT GCTGACAACC 
    CAGACTGCAG AGGTTCAGGA CCCTGGAGAA CCACAGGAGT CAGGGACATC TGGAGAGGCC 
    TGGGAGGGCC AGAAAGGGCT TCCTAAAGAT GAACTGCAGA CCGCTATAGA ACTCAGCCTG 
    CAGGAGTCCC ACAAAGCCCA GGAAGAGGAG CGAGAATTTC ATAGGGCTCT GGAAGCCAGT 
    GCAGAGGAGA ATGCTGCGAG AATAAAGAGG AAGAGATGTG AAGCCCAGAG TGAAATGTGT 
    AGCCCTGCAG AGTGGATCCG TCAGGAAGAT TGGCCTGTGG GCATTCGTAA TGTAGGAAAC 
    ACCTGCTGGT TCAGTGCTGT CATCCAGTCA CTCTTCCACC TGCCTGTGTT CAGGAGACTG 
    GTTCTCAACT ACCATCTGTC TGAGAAAATA CTGGAGAAGT GTAAAAGCCA TTCAGACAAG 
    AGGAACATAG CCTTCATGCA GGAGCTGCGC TGCCTGTTTG CCCTCATGGT GGGCTCTACC 
    CGCAGGTTTG TGGATCCTTC TGCTGCTGTG GAGTTATTGC GTGACGCCTT CAGGACCAAT 
    GAGGCCCAAC AGGATGTCAG TGAGTTTTCC CACAAACTGC TTGACTGGCT CGAGGATGCA 
    TTTCAGCTGG CTGCCAGTGG AAAAAATGCA GAAGATAAAC AACATAACCC CATGGTCCAG 
    CTCTTCTATG GTACCTTTGT GACAGAAAGA AGACACGAGG GTAAGATGGT ATATAATATT 
    GAGCAGTTTG GCCAGTACCC CCTGCAAGTC AATGGCTTCA ACAATCTTGA TGAATGCTTA 
    GAAGGTGCTA TGGTAGAGAA GGAGATTGAG TCGGTTCATT CAGAGCATCA TGTCACATCT 
    GGACGTGAGA GATGGTTCAA AAAGCTACCA CCAGTCTTGA CATTTGAACT TTCGAGATTT 
    GAATTCAACA CCCAGCTTGG GCGCCCTGAG AAGATACATA AGAAACTGGA GTTTCCTCAA 
    ATCATTTATA TGGACAGATA TCTTCACAAA AACATTGAGC AGACCCATGA GAGGAGAGGA 
    GAAGTAAAGA AACTAAAGGA GCAACTGGCA GTCCTTCAAC AGAAACTTGA GTGTTATAAA 
    AACTATGGCT CTGGACCTAC AAAGTACCCT CTAGCTGACA TGCTCCAGTT TGTGCTGGAG 
    TTTGCTACCA CCAAGCCGAC TAGCGTTTCC CCAGCTGAAG ACTCGAGACA GGCCGCATCG 
    TCACCGACTC CTCCAAGTGC CCCCCTCAGT GAAGCCATTG CCAAAGAAAG CAGTGATCCC 
    GGAGAATCAG TTTCATCAGA GAGCCTGGGT TCCAGTGTTT CCAGTTGCCA GAGGACCCCC 
    ATATACAAGC CCTTCACTCA GTGCAGACAA CCTATTGACT GCCCACCACA CCCTGCCCCC 
    CACAGCATCA CAGAAGAAGA GCTGCACTTT GCTAAAACCT GTCTTCAGCG TTGGAGGACT 
    GAAGTTGAGA ATGACATAAA TGAACTAAAG GCCAGCATTG ACAGGCTCAC TCAGACGCTC 
    GAGGGCATGT ACTCAGACAA CAGTCTCTGC CAGGCCCCCT ACAGACTCCA TGCAGTGCTT 
    GTCCATGAAG GCCAGGCATC AGCTGGTCAT TACTGGGCTT ACATCTATGA CCATGCTAAC 
    CAGCGCTGGC TGAAGTACAA TGACATAAGT GTCACTGAGT CATCGTGGGA TGAGCTGGAG 
    CGGGACTCCT TTGGAGGCAT GACCAACGCA AGTGCCTACT GCCTAATGTA CATTGACGAC 
    AGGCTACCTC AGCTCATCAC AGAAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGGAGG TTCCAGCCAG ACCACGACAG ACTGAGAATG AGGTCTCAGA AGTGGAGATC 
    CCCAATGTGG GCCGGATCAT GGTGAGGGCG GATGCTGACG GATACAATGA AGAGATGATG 
    CTAACTCCAG CTATGCAGGG TGTCATTCTA GCCATAGCCA AGGCCAGACA AATTTTTGAT 
    AAGGAGGGTC CTGAGGCTGG CCTCATCAAG GCTTTCCATG AAGAGTATTC GCGCTTGTAT 
    GAGCTCTCTG AAGAGGAGAC CACACCACAG GAGGATGCAC GTCTCCAGCA CGCTCTGGTC 
    TACTTCTTCC AGAACAAGGC ACCCAAGCGT GTCATTGAGA GGACGCTGCT TGAGCAGTTT 
    ACTGACCGCA ACCTCAGTTT TGATGAGAGA GCCATCAGTA TCATGAGGGA AGCCCGGGCC 
    AAACTTCGTC TCATTAAGCC AGAAGACATG GACATGGAAG AATACATGCA GTGGCATGAC 
    GATTACAGGC TGTTCAGGAC GGTCTTTGTC TATCTGTTGA CTGGGCTGGA GCATTACCAG 
    CACGGGAAGA TGCGTGATGC ACTGAATTAC TTGGCCCACG CCTATGAGAC CAACAGCACC 
    CTGCTGCGAA ACGGAGAGAA ACGTGGTGTG GACAAGTCTC TCATTGCTGT TTACAGGAGG 
    AAGTGTCTCA CTGCACTAAA TGAGAGCGCA TCGCAGCTAT TTTGCAGCGG TGAGGAGGCC 
    AAAGTAGAAG AGGGTATTGC CATCATGGAT GAAGCCGTCA TCCCCTGCCT TCACCTGATG 
    AACCGGGACT CGACTTTACC CCAGGAAGAC CGAGATGCAA TGGAGGCCAT CCGCAGCCAC 
    TGGTGCTGCT GCCTGGGCCG AGACATGGAT CAGTCATTGC AGGTGAAGCT CGGCGAGTTG 
    CTTCCCAGAG TTCTGGACGG TTCAGCTGAC ACAGTAGTGC TTAAAGACCC TCCCAAAGTC 
    CACGTCACCC AGGCCTACGA CCTGTGCAGT CGCCTGGCTG CTGTTATGGA ATCCATCCAC 
    AACACATCAG TGGTCATTGT GAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    usp28 ( XM_023153119.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_023008887.2 Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMa359733
    Clone ID Related Accession (Same CDS sequence) XM_023153119.2
    Accession Version XM_023153119.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3627bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-04-23
    Organism Maylandia zebra(zebra mbuna)
    Product ubiquitin carboxyl-terminal hydrolase 28 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036789.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_023153119.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGGGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGGAGG TTCCAGCCAG ACCACGACAG ACTGAGAATG AGGTCTCAGA AGTGGAGATC 
    CCCAATGTGG GCCGGATCAT GGTGAGGGCG GATGCTGACG GATACAATGA AGAGATGATG 
    CTAACTCCAG CTATGCAGGG TGTCATTCTA GCCATAGCCA AGGCCAGACA AATTTTTGAT 
    AAGGAGGGTC CTGAGGCTGG CCTCATCAAG GCTTTCCATG AAGAGTATTC GCGCTTGTAT 
    GAGCTCTCTG AAGAGGAGAC CACACCACAG GAGGATGCAC GTCTCCAGCA CGCTCTGGTC 
    TACTTCTTCC AGAACAAGGC ACCCAAGCGT GTCATTGAGA GGACGCTGCT TGAGCAGTTT 
    ACTGACCGCA ACCTCAGTTT TGATGAGAGA GCCATCAGTA TCATGAGGGA AGCCCGGGCC 
    AAACTTCGTC TCATTAAGCC AGAAGACATG GACATGGAAG AATACATGCA GTGGCATGAC 
    GATTACAGGC TGTTCAGGAC GGTCTTTGTC TATCTGTTGA CTGGGCTGGA GCATTACCAG 
    CACGGGAAGA TGCGTGATGC ACTGAATTAC TTGGCCCACG CCTATGAGAC CAACAGCACC 
    CTGCTGCGAA ACGGAGAGAA ACGTGGTGTG GACAAGTCTC TCATTGCTGT TTACAGGAGG 
    AAGTGTCTCA CTGCACTAAA TGAGAGCGCA TCGCAGCTAT TTTGCAGCGG TGAGGAGGCC 
    AAAGTAGAAG AGGGTATTGC CATCATGGAT GAAGCCGTCA TCCCCTGCCT TCACCTGATG 
    AACCGGGACT CGACTTTACC CCAGGAAGAC CGAGATGCAA TGGAGGCCAT CCGCAGCCAC 
    TGGTGCTGCT GCCTGGGCCG AGACATGGAT CAGTCATTGC AGGTGAAGCT CGGCGAGTTG 
    CTTCCCAGAG TTCTGGACGG TTCAGCTGAC ACAGTAGTGC TTAAAGACCC TCCCAAAGTC 
    CACGTCACCC AGGCCTACGA CCTGTGCAGT CGCCTGGCTG CTGTTATGGA ATCCATCCAC 
    AACACATCAG TGGTCATTGT GAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_023008887.2
    CDS89..3715
    Translation

    Target ORF information:

    RefSeq Version XM_023153119.2
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra ubiquitin specific peptidase 28 (usp28), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_023153119.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTTTCGT CTGCAATGAG AGCCGATCAG TCTGAAAATG GAGAAAACTC AACCAACTCG 
    CAGAGTGAAA TGCTGATCAG CCAGCTGAGG GAGATCACTG GCATCCAGGA CCAACAGATC 
    CTCTACAGAG CCCTGAATGT CAGTCAGGGG GACATTGGAC ATGCTGTTGG ACTGCTGACA 
    ACCCAGACTG CAGAGGTTCA GGACCCTGGA GAACCACAGG AGTCAGGGAC ATCTGGAGAG 
    GCCTGGGAGG GCCAGAAAGG GCTTCCTAAA GATGAACTGC AGACCGCTAT AGAACTCAGC 
    CTGCAGGAGT CCCACAAAGC CCAGGAAGAG GAGCGAGAAT TTCATAGGGC TCTGGAAGCC 
    AGTGCAGAGG AGAATGCTGC GAGAATAAAG AGGAAGAGAT GTGAAGCCCA GAGTGAAATG 
    TGTAGCCCTG CAGAGTGGAT CCGTCAGGAA GATTGGCCTG TGGGCATTCG TAATGTAGGA 
    AACACCTGCT GGTTCAGTGC TGTCATCCAG TCACTCTTCC ACCTGCCTGT GTTCAGGAGA 
    CTGGTTCTCA ACTACCATCT GTCTGAGAAA ATACTGGAGA AGTGTAAAAG CCATTCAGAC 
    AAGAGGAACA TAGCCTTCAT GCAGGAGCTG CGCTGCCTGT TTGCCCTCAT GGTGGGCTCT 
    ACCCGCAGGT TTGTGGATCC TTCTGCTGCT GTGGAGTTAT TGCGTGACGC CTTCAGGACC 
    AATGAGGCCC AACAGGATGT CAGTGAGTTT TCCCACAAAC TGCTTGACTG GCTCGAGGAT 
    GCATTTCAGC TGGCTGCCAG TGGAAAAAAT GCAGAAGATA AACAACATAA CCCCATGGTC 
    CAGCTCTTCT ATGGTACCTT TGTGACAGAA AGAAGACACG AGGGTAAGAT GGTATATAAT 
    ATTGAGCAGT TTGGCCAGTA CCCCCTGCAA GTCAATGGCT TCAACAATCT TGATGAATGC 
    TTAGAAGGTG CTATGGTAGA GAAGGAGATT GAGTCGGTTC ATTCAGAGCA TCATGTCACA 
    TCTGGACGTG AGAGATGGTT CAAAAAGCTA CCACCAGTCT TGACATTTGA ACTTTCGAGA 
    TTTGAATTCA ACACCCAGCT TGGGCGCCCT GAGAAGATAC ATAAGAAACT GGAGTTTCCT 
    CAAATCATTT ATATGGACAG ATATCTTCAC AAAAACATTG AGCAGACCCA TGAGAGGAGA 
    GGAGAAGTAA AGAAACTAAA GGAGCAACTG GCAGTCCTTC AACAGAAACT TGAGTGTTAT 
    AAAAACTATG GCTCTGGACC TACAAAGTAC CCTCTAGCTG ACATGCTCCA GTTTGTGCTG 
    GAGTTTGCTA CCACCAAGCC GACTAGCGTT TCCCCAGCTG AAGACTCGAG ACAGGCCGCA 
    TCGTCACCGA CTCCTCCAAG TGCCCCCCTC AGTGAAGCCA TTGCCAAAGA AAGCAGTGAT 
    CCCGGAGAAT CAGTTTCATC AGAGAGCCTG GGTTCCAGTG TTTCCAGTTG CCAGAGGACC 
    CCCATATACA AGCCCTTCAC TCAGTGCAGA CAACCTATTG ACTGCCCACC ACACCCTGCC 
    CCCCACAGCA TCACAGAAGA AGAGCTGCAC TTTGCTAAAA CCTGTCTTCA GCGTTGGAGG 
    ACTGAAGTTG AGAATGACAT AAATGAACTA AAGGCCAGCA TTGACAGGCT CACTCAGACG 
    CTCGAGGGCA TGTACTCAGA CAACAGTCTC TGCCAGGCCC CCTACAGACT CCATGCAGTG 
    CTTGTCCATG AAGGCCAGGC ATCAGCTGGT CATTACTGGG CTTACATCTA TGACCATGCT 
    AACCAGCGCT GGCTGAAGTA CAATGACATA AGTGTCACTG AGTCATCGTG GGATGAGCTG 
    GAGCGGGACT CCTTTGGAGG CATGACCAAC GCAAGTGCCT ACTGCCTAAT GTACATTGAC 
    GACAGGCTAC CTCAGCTCAT CACAGACACA GATGATGAGA CGGGCCAGGT GCTCCATGGC 
    ATGGACTCTC TGCCACCCAT CCTCAGGCGC TTTGTCCACG AAGATAACCG CTGGTTCCAG 
    CAGGAGCTCA GCGAATGGGA GGAGCAGTTC TGCCAGACAG CAACCCCGCA GGAAGAGTCC 
    ACCGCCTCTG CAGAGCCCAC AAGTCCCAGT CTGGATAACA TACAGCAGTC ACCTGTTGAG 
    CCAGCACCCC AGTCAGGATC CACTACTGAA GAGGTGGATG AAGGAGTTGC TCCAGAGCCA 
    CAGCCAGACC AAGAAGCAGA GAAAGAGCCA GAACCTGATC TCAGAAAAGA GCCAGAAGCG 
    CAAACAGATT TATCTCCCCC ACCACCAGAG GGCCCTGGCT GCCAGCCAGG TGATACCAGC 
    ACTCCAACAG TCACTGACAC CACGGGGGTC AGCCAGAGCT CTGATTCAGA GGAGAAGGAG 
    CCGCAGAATC AGATCCCTGG CCCTGATGTA GAGCTTTGCG ATCAGACACC ATCTGACATC 
    CACGTAGAGA AGGATAACCC AGAGGTGGCC GGCCTCGTCT CTGAAACTGA AGAAGAGCCC 
    CAGGCTTCTG GAGAGGCTCC TGAACCTATC GCAGAGCAAA GCAATCAGGA GCAGCAGCAG 
    CAGCAGGAGG TTCCAGCCAG ACCACGACAG ACTGAGAATG AGGTCTCAGA AGTGGAGATC 
    CCCAATGTGG GCCGGATCAT GGTGAGGGCG GATGCTGACG GATACAATGA AGAGATGATG 
    CTAACTCCAG CTATGCAGGG TGTCATTCTA GCCATAGCCA AGGCCAGACA AATTTTTGAT 
    AAGGAGGGTC CTGAGGCTGG CCTCATCAAG GCTTTCCATG AAGAGTATTC GCGCTTGTAT 
    GAGCTCTCTG AAGAGGAGAC CACACCACAG GAGGATGCAC GTCTCCAGCA CGCTCTGGTC 
    TACTTCTTCC AGAACAAGGC ACCCAAGCGT GTCATTGAGA GGACGCTGCT TGAGCAGTTT 
    ACTGACCGCA ACCTCAGTTT TGATGAGAGA GCCATCAGTA TCATGAGGGA AGCCCGGGCC 
    AAACTTCGTC TCATTAAGCC AGAAGACATG GACATGGAAG AATACATGCA GTGGCATGAC 
    GATTACAGGC TGTTCAGGAC GGTCTTTGTC TATCTGTTGA CTGGGCTGGA GCATTACCAG 
    CACGGGAAGA TGCGTGATGC ACTGAATTAC TTGGCCCACG CCTATGAGAC CAACAGCACC 
    CTGCTGCGAA ACGGAGAGAA ACGTGGTGTG GACAAGTCTC TCATTGCTGT TTACAGGAGG 
    AAGTGTCTCA CTGCACTAAA TGAGAGCGCA TCGCAGCTAT TTTGCAGCGG TGAGGAGGCC 
    AAAGTAGAAG AGGGTATTGC CATCATGGAT GAAGCCGTCA TCCCCTGCCT TCACCTGATG 
    AACCGGGACT CGACTTTACC CCAGGAAGAC CGAGATGCAA TGGAGGCCAT CCGCAGCCAC 
    TGGTGCTGCT GCCTGGGCCG AGACATGGAT CAGTCATTGC AGGTGAAGCT CGGCGAGTTG 
    CTTCCCAGAG TTCTGGACGG TTCAGCTGAC ACAGTAGTGC TTAAAGACCC TCCCAAAGTC 
    CACGTCACCC AGGCCTACGA CCTGTGCAGT CGCCTGGCTG CTGTTATGGA ATCCATCCAC 
    AACACATCAG TGGTCATTGT GAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

見積依頼

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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